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Although this monitor is owned and operated by the State of Missouri, significant research was conducted with this technology for fence-line monitoring applications through an EPA Community Air Toxics Grant, Washington University, Cooper Environmental Services, and the State of Missouri. For information about this research you may contact the following individuals:
Dan Bivins, US-EPA, (919) 541- 5244John Cooper, Cooper Environmental Services, Portland, OR (503) 670-8127Dr. Jay Turner, Washington University, St. Louis MO ([email protected])Field operation and use of the Xact-620: William Wetherell, Jim Burnnert, MDNR (573 )526-3359About this poster: Stephen Hall 573-526-3362
Got Lead? Comparison of a Near Real Time PM10 Ambient Air Metals Monitor to a FEM Lead TSP MethodStephen Hall Missouri Department of Natural ResourcesEnvironmental Services Program
Lead: a “Legacy” Pollutant
Lead is an abundant natural resource in some areas of Missouri. Consequently, the use of this resource has created unique environmental and public health challenges for our state.
Historic and current lead activities in Missouri: Mining - Milling - Smelting - Recycling
Active Lead Smelting
Large Lead Chat Piles
The large lead chat pile in the background is located in an area known as the “Old Lead Belt” in Park Hills MO. A Lead TSP-Hi-Volume Sampler is in the foreground.
Consequently “Every Day” is a Day of Lead Monitoring in Missouri
Every Day TSP-Hi-Vol Samplers (alternating between two samplers) (For SIP)Every Third Day (For SIP & Special Projects)Every Six Day (For New NAAQS)And Now-Every Hour! Near Real time PM10 Metals Monitor
Measurement Principle: Non-Destructive X-ray Fluorescence
Basic Features and Information:Sampling interval can be varied. 15min to 240min.Detection limits will vary depending on sampling time, filter loading and analysis time.Sample flow rate 16.7 LpmPM10 inlet.Up to 25 metals can be measured. (This monitor is “tuned” for As and Pb)
What the Technology Can Show Us
The instrument is useful for source profiling and understanding diurnal lead concentrations. Many other potential uses including near real time reporting of data to the public. The following example is a high lead concentration episode on December 23rd and 24th 2009.
Could the Technology Be Used as a Near-Real-Time Surrogate for Pb-TSP?
Although the Xact 620 24-Hr Pb-PM10 averages are typically biased lower than the lead TSP method, the technology appears to provide a good relative indication of the magnitude of ambient air Pb concentrations when compared to the 24-hr time integrated TSP filter based samples. The technology is useful for reporting short term elevated lead concentrations in ambient air.
More data and investigation are necessary to determine if the source profile is consistent over time and if site specific scaling factors or other statistical correction techniques could be applied reliably to produce a TSP surrogate.
What Have We Learned?
Diurnal concentrations of lead in ambient air vary with wind direction from the source.
Preliminary Scaling Factors & Correlation Statistics
Scaling Factors
Additional Contact Information
Lead TSP to lead PM10 ratios are less consistent at lower concentrations. (possibly due to the ultra-coarse particulate component)
Monthly Scaling Factors appear to meet the goals proposed for the use of Scaled Pb-PM10 Data as a Surrogate for Pb-TSP (Federal Register /Vol. 73, No. 98 /Tuesday, May 20, 2008 / Proposed Rules, 29285). Although scaling factors for relating Pb-PM10 to Pb-TSP were not promulgated in the final lead rule, they may yet find use for near-real-time public reporting applications.
Doe Run Co. Primary lead Smelter, Herculaneum MO
Herculaneum Main St. Air Monitoring Site
Herculaneum Dunklin High School Air Monitoring Site
St. Joe State Park 8,238-acre lead mine tailings site Donated to the State in 1976 2,000-acres of ORV trails on mine tailings.
Active SPMS monitoring to measure Pb Ambient Air concentrations
Sample Collected on
tape -Tape advances
-Sample analyzed by XRF while next sample is collected.
Xact-Pb-PM10 Hourly Concentrations on 12/23/2009
0.00
2.00
4.00
6.00
8.00
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12.00
14.00
16.00
18.00
0:00
2:00
4:00
6:00
8:00
10:0
012
:00
14:0
016
:00
18:0
020
:00
22:0
0
Hour
Lea
d C
on
cen
trat
ion
µg
/m3
Xact-Pb-PM-10 Hourly Concentrations
Cooper Environmental ServicesXact-620
Xact-Pb-PM10 Hourly Concentrations on 12/24/2009
0.00
2.00
4.00
6.00
8.00
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0:00
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012
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016
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020
:00
22:0
0
Hour
Ho
url
y L
ead
Mas
s co
nce
ntr
atin
µg
/m3
Xact-Pb-PM-10 hourly Concentrations
24-Hr Pb-TSP 12.23 µg/m3
24-Hr Integrated Xact-PM10: 8.40 µg/m3
24-Hr Pb-TSP 4.81 µg/m3
24-Hr Integrated Xact-PM10: 3.45 µg/m3
Short term lead PM10 concentrations can exceed the 24-hr integrated average for several hours at a time.
X-ray tube and detector can be optimized for particular metals. (Consult manufacture for details)
Hour
Win
d D
irect
ion (
Degre
es
from
Nort
h)
23222120191817161514131211109876543210
400
300
200
100
0
135
172
Individual Value Plot of Wind Dirction vs HourBlue dot is the average wind direction for that hour of the day over the period
August 1, 2009 Thorugh December 31, 2009
Xact-PM10 data corrected with the average scaling factor generally yields a conservative TSP surrogate.
Abstract: The State of Missouri purchased a near real time XRF metals monitor (Cooper Environmental Systems Xact 620) to support the goals of a community air toxics grant from EPA. At the end of the grant’s study period the XRF monitor was collocated at a TSP lead monitoring site near a stationary lead source for source profiling. This presentation reports the comparability of the continuous near-real time XRF metals data to an FEM TSP hi-volume method. Results indicate that the integrated 24-hr average of the XRF monitor measurements, although biased lower than the TSP 24hr samples, are well correlated in certain concentration ranges. The Pearson correlation coefficients for the paired data (Pb-TSP/near-real time Pb-PM10) and resultant scaling factors are presented. The XRF monitor has benefits related to identifying the temporal changes in lead concentrations in the source area. The instrument identifies diurnal variation in elevated lead concentrations, which is not available using the traditional time integrated 24hr TSP sampling.
Hourly Pb-Xact-PM10 Concentration Vs. Wind DirectionAugust 1, 2009 through December 31, 2009
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5.0
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90
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Wind Direction (ºN)
Pb
-Xa
ct-
PM
10
Ho
url
y
Co
nc
en
tra
tio
n (
µg
/m3 )
Pb-TSP to Xact-Pb-PM10 (Scaling Factor) vs. Concentration
(Range: 0 to 13 µg/m3) August to December 2009
0.00
1.00
2.00
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4.00
5.00
6.00
7.00
8.00
0.0
0
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0
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.50
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24-Hr Lead-TSP Concentration (µg/m3)
Sc
alin
g F
ac
tor
(Ra
tio
: P
b-T
SP
to
Xa
ct-
Pb
-PM
10)
Pb-TSP to Xact-Pb-PM10 (Scaling Factor) vs. Concentration
(Conentration rage 0.03 to 1.00 µg/m3) August to December 2009
0.00
1.00
2.00
3.00
4.00
5.00
6.00
00
.03
0.0
60
.09
0.1
20
.15
0.1
80
.21
0.2
40
.27
0.3
0.3
30
.36
0.3
90
.42
0.4
50
.48
0.5
10
.54
0.5
70
.60
.63
0.6
60
.69
0.7
20
.75
0.7
80
.81
0.8
40
.87
0.9
0.9
30
.96
0.9
91
.02
1.0
51
.08
24-Hr Pb-TSP-Concentration (µg/m3)
Sc
alin
g f
ac
tor
Xact-PM10 vs. TSP (Range 0.070 to 1.00 µg/m3)August to December 2009
y = 0.7166x - 0.0002
R2 = 0.8494
0
0.15
0.3
0.45
0.6
0.75
0.9
1.05
0 0.15 0.3 0.45 0.6 0.75 0.9 1.05 1.2
Pb-TSP (µg/m3)
Xa
ct-
PM
10 (
µg
/m3 )
Xact-PM10 vs. TSP (concentration Rage 0.07 to 13 µg/m3)August to December 2009
y = 0.7203x + 0.0195
R2 = 0.9843
0
1
2
3
4
5
6
7
8
9
10
0 1 2 3 4 5 6 7 8 9 10 11 12 13
Pb-TSP (µg/m3)
Xa
ct-
Pb
-PM
10 (
µg
/m3 )
Average Scaling Facor Applied to Raw Xact Pb-PM10 Hourly Data Integrated over 24 hours
y = 1.2114x + 0.0199
R2 = 0.9861
y = 0.7224x + 0.0119
R2 = 0.9861
0123456789
10111213141516
0 1 2 3 4 5 6 7 8 9 10 11 12 13
Pb-TSP µg/m3
X-a
ct P
M10
Lea
d µ
g/m
3
Xact raw Corrected Xact PM-10 Linear (Corrected Xact PM-10) Linear (Xact raw)
Year 2009Pearson Correlation of Paired
DataMonthly Scaling Factor Pb-TSP
to Pb-Xact-PM-10% Difference From Avg.
August 0.995 1.92 14.20%Septemper 0.994 1.41 -15.96%
October 0.996 1.38 -17.85%November 0.997 1.78 6.17%December 0.997 1.90 13.44%
Avg. Scaling Factor 1.68